| Title | Authors | Year | Journal Citation |
| Effect of Tunable Stiffness on the Hydrodynamic Performance of a Tuna Tail Informed Flexible Propulsor | Wang J. et al. | 2022 | AIAA SCITECH 2022 Forum, 1-10 |
| Tunable stiffness in fish robotics: mechanisms and advantages | Quinn D. and Lauder G.V. | 2022 | Bioinspiration and Biomimetics 17 (2022) 011002 |
| An autonomously swimming biohybrid fish designed with human cardiac biophysics | Lee K.Y. et al.
| 2022 | Science 375:639-647
|
| Multi-animal pose estimation, identification and tracking with DeepLabCut | Lauer J. et al. | 2022 | Nat Methods 19, 496–504 (2022) |
| Robotics as a Comparative Method in Ecology and Evolutionary Biology | Lauder G.V. | 2022 | Integrative and Comparative Biology 62:3, 721–734 |
| Fish-inspired segment models for undulatory steady swimming | Akanyeti O. et al. | 2022 | Bioinspir. Biomim. 17 046007 |
| Applied aspects of locomotion and biomechanics | Castros-Santos T. et al. | 2022 | Book chapter |
| 3D visualization processes for recreating and studying organismal form | Irschick D.J. et al. | 2022 | iScience 25:9 |
| Ridges and riblets: Shark skin surfaces versus biomimetic models | Gabler-Smith M.K. et al. | 2022 | Front. Mar. Sci., 25 August 2022 |
| Role of the caudal peduncle in a fish-inspired robotic model: how changing stiffness and angle of attack affects swimming performance | Matthews D.G. et al. | 2022 | Bioinspir. Biomim. 17 (2022) 066017 |
